open Parser open Ast let token_str = function | CLASS -> "class" | ELSE -> "else" | FALSE -> "false" | FOR -> "for" | IF -> "if" | INT -> "int" | NEW -> "new" | NULL -> "NULL" | PUBLIC -> "public" | RETURN -> "return" | THIS -> "this" | TRUE -> "true" | VIRTUAL -> "virtual" | VOID -> "void" | WHILE -> "while" | IDENT(s) -> "'"^s^"'" | TIDENT(s) -> "\""^s^"\"" | ASSIGN -> "=" | LOR -> "||" | LAND -> "&&" | EQ -> "==" | NE -> "!=" | LT -> "<" | LE -> "<=" | GT -> ">" | GE -> ">=" | PLUS -> "+" | MINUS -> "-" | TIMES -> "*" | DIV -> "/" | MOD -> "%" | NOT -> "!" | INCR -> "++" | DECR -> "--" | REF -> "&" (* and also : unary dereference, plus, minus *) | LPAREN -> "(" | RPAREN -> ")" | RARROW -> "->" | DOT -> "." (* OTHER SYMBOLZ *) | SEMICOLON -> ";" | DOUBLECOLON -> "::" | LFLOW -> "<<" | LBRACE -> "{" | RBRACE -> "}" | COMMA -> "," | COLON -> ":" (* DATAZ *) | INTVAL(i) -> "#" ^ (string_of_int i) | STRVAL(s) -> "`" ^ s ^ "`" (* STUPIDITIEZS *) | STD_COUT -> "std::cout" | INCLUDE_IOSTREAM -> "#include " | EOF -> "end." let print_tok t = print_string ((token_str t) ^ "\n") (* printing AST's *) let binop_str = function | Equal -> "==" | NotEqual -> "!=" | Lt -> "<" | Le -> "<=" | Gt -> ">" | Ge -> ">=" | Add -> "+" | Sub -> "-" | Mul -> "*" | Div -> "/" | Modulo -> "%" | Land -> "&&" | Lor -> "||" let unop_str = function | PreIncr -> "++." | PostIncr -> ".++" | PreDecr -> "--." | PostDecr -> ".--" | Ref -> "&" | Deref -> "&" | Not -> "!" | Minus -> "-" | Plus -> "+" let rec var_type_str = function | TVoid -> "void" | TInt -> "int" | TIdent(i) -> i | TPtr(k) -> "*" ^ (var_type_str k) | TRef(k) -> "&" ^ (var_type_str k) let rec expr_string = function | EInt(i) -> string_of_int i | EBool(b) -> (if b then "true" else "false") | ENull -> "NULL" | EIdent(i) -> i | EAssign(k, p) -> "(" ^ (expr_string k) ^ " = " ^ (expr_string p) ^ ")" | ECall(e, f) -> (expr_string e) ^ "(" ^ (List.fold_left (fun x k -> x ^ ", " ^ (expr_string k)) "" f) ^ ")" | EUnary(e, f) -> (unop_str e) ^ (expr_string f) | EBinary(e1, o, e2) -> "(" ^ (expr_string e1) ^ " " ^ (binop_str o) ^ " " ^ (expr_string e2) ^ ")" let rec print_stmt l x = for i = 1 to l do print_string " " done; match x with | SEmpty -> print_string ";\n" | SExpr(e) -> print_string ((expr_string e) ^ "\n") | SIf(e, a, b) -> print_string ("if " ^ (expr_string e) ^ "\n"); print_stmt (l+1) a; for i = 1 to l do print_string " " done; print_string "else\n"; print_stmt (l+1) b | SWhile(e, a) -> print_string ("while " ^ (expr_string e) ^ "\n"); print_stmt (l+1) a; | SFor(i, c, f, s) -> print_string ("for " ^ (List.fold_left (fun x k -> x ^ ", " ^ (expr_string k)) "" i) ^ "; " ^ (match c with | None -> "" | Some(a) -> expr_string a) ^ "; " ^ (List.fold_left (fun x k -> x ^ ", " ^ (expr_string k)) "" f) ^ "\n"); print_stmt (l+1) s | SBlock(b) -> print_block l b | SReturn(None) -> print_string "return\n" | SReturn(Some k) -> print_string ("return" ^ (expr_string k) ^ "\n") | SDeclare(i, t, None) -> print_string (i ^ " : " ^ (var_type_str t) ^ "\n") | SDeclare(i, t, Some e) -> print_string (i ^ " : " ^ (var_type_str t) ^ " = " ^ (expr_string e) ^ "\n") and print_block n b = let prefix = String.make n ' ' in print_string (prefix ^ "{\n"); List.iter (fun s -> print_stmt (n+1) s) b; print_string (prefix ^ "}\n") let proto_str p = p.p_name ^ " (" ^ (List.fold_left (fun x (i, t) -> x ^ ", " ^ i ^ " : " ^ (var_type_str t)) "" p.p_args) ^ ") : " ^ (var_type_str p.p_ret_type) let print_prog p = List.iter (function | DGlobal(i, t) -> print_string ("decl " ^ i ^ " : " ^ (var_type_str t) ^ "\n") | DFunction(p, b) -> print_string (proto_str p ^"\n"); print_block 0 b) p